Latest Articles for Bound State

Research reveals strong coupling effects in spin-magnon dynamics using Kerr nonlinearity.

Exploring how Beltrami surfaces influence electron movement and energy states.

Examining how electron states impact magnetic textures and future technology applications.

Research delves into charmonium-like states and their binding properties.

This article examines quintuplet dark matter and its potential signals in the universe.

Research unveils new excited states in pentaquarks, challenging existing particle physics models.

Exploring how particles move through topological pumping in quantum systems.

Exploring SIMPs' interactions and their potential role in dark matter.

An overview of fermion-soliton scattering and its implications in theoretical physics.

Research reveals new phases in non-Hermitian Kondo models driven by energy dissipation.

New insights into particle interactions through -wave scattering studies.

Research focuses on how light interacts in engineered photonic structures.

An overview of the relationship between bound states and scattering in quantum systems.

Investigating giant atoms and their interactions with waveguides reveals new light behaviors.

Examining how electric and magnetic waveguides affect electron behavior in graphene.

Examining the role of fractional solitons in fiber-optic communications and their interactions.

This study investigates heavy quarkonia behavior under thermal conditions in a quark-gluon plasma.

Exploring the unique properties of graphene wormholes and their effects on electron dynamics.

Research on 2D magnets reveals insights into magnetic quantum impurities and their effects.

Research on Rydberg molecules may reveal unique atomic interactions.

A look into the interactions of doubly charmed baryons and kaons.

Research reveals insights into quark behavior under extreme conditions.

Examining bound states and mobility in quantum wells enhances quantum computing understanding.

Examining exciton condensation in quantum spin-Hall and Mott insulators reveals new properties.

Discovering how hyperons interact in atomic nuclei provides insights into extreme matter environments.

A look into three-body systems and the Beryllium isotope's role in nuclear interactions.

A look into the intriguing relationship between kinks and fermions in physics.

This article explores how mesons interact with atomic nuclei and their implications.

Exploring the role of magnetic domain walls in advanced semiconductor applications.

Research on hadron interactions reveals key insights into particle behavior and fundamental forces.

Research explores ghost confinement in quantum gravity to tackle stability issues.

Researchers study dibaryons to learn about particle interactions.

Explore the role of kinks in quantum systems and their impact on entanglement.

This article examines the intriguing world of heavy baryonium and dibaryon systems.

Researchers examine particle behaviors and interactions using correlation functions at specific energy levels.

Learn about bound states and their role in understanding particles and forces.

Research reveals complex states of hadrons, urging experimental verification.

Research explores how exotic molecules interact with conventional hadrons.

A look into the mysterious substance shaping our universe.

An overview of how four particles interact and scatter in physics.